4C-ker: A method to reproducibly identify genome-wide interactions captured by 4C-Seq experiments

Raviram, Ramya; Rocha, Pedro P.; Müller, Christian L.; Miraldi, Emily R.; Badri, Sana; Fu, Yi; Swanzey, Emily; Proudhon, Charlotte; Snetkova, Valentina; Bonneau, Richard; Skok, Jane

doi:10.1101/030569

Cited by 15 publications

(23 citation statements)

References 41 publications

(30 reference statements)

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“…Bait-specific primers for the circularized inverse PCR are listed in Supplemental Table S7. Amplicons were sequenced on a HiSeq2500 platform (Illumina), mapped to the reference genome (hg19) and analyzed with the Hidden-Markov-Model-based tool 4Cker (Raviram et al 2016). This tool corrects for increasing signal noise in trans chromosomal interactions and far-cis chromosomal interactions by adaptive window sizes.…”

Section: Circular Chromatin Conformation Capture (4c)mentioning

confidence: 99%

Epigenetic drift during long-term culture of cells in vitro

Franzen

Georgomanolis

Selich

et al. 2018

Preprint

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Replicative senescence of cells in culture is associated with highly reproducible DNA methylation (DNAm) changes at specific sites in the genome. Thus far, it is largely unclear if these epigenetic modifications are directly regulated, or if they are randomly evoked by other chromatin changes during long-term culture.We have identified CG dinucleotides (CpGs) that become continuously hyper-or hypomethylated in the course of culture expansion of mesenchymal stem cells (MSCs) and other cell types. These modifications provide a biomarker for replicative senescence and correlate with the number of passages in vitro. During reprogramming into induced pluripotent stem cells (iPSCs) senescence-associated DNAm is reversed simultaneously with pluripotency-associated DNAm changes. Bisulfite barcoded amplicon sequencing (BBA-seq) demonstrated that upon passaging the DNAm patterns of neighboring CpGs become more complex without evidence of continuous pattern development. Notably, BBA-seq of hairpin-linked DNA molecules demonstrated that many CpG dyads are methylated only on the forward or the reverse strand. This hemimethylation was conserved over many passages, indicating that it was not due to insufficient maintenance of DNAm patterns. Circularized chromatin conformation capture (4C) of senescence-associated CpGs revealed reproducible changes during senescence without evidence for preferential interaction between CpGs that become either hyper-or hypomethylated.Taken together, senescence-associated DNAm fluctuates stochastically at specific sites in the genome. Strand-specific DNAm and reproducible changes in 4C indicate that epigenetic modifications of these CG dyads are not regulated in a targeted manner but rather caused by passage-specific higher order chromatin conformation states.

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Section: Circular Chromatin Conformation Capture (4c)mentioning

confidence: 99%

Epigenetic drift during long-term culture of cells in vitro

Franzen

Georgomanolis

Selich

et al. 2018

Preprint

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“…Sequencing library was prepared as described using Expand Long Template polymerase (Roche) and Illumina adaptor sequence-containing primers unique to the hTERT fragend listed in Supplementary Table 1. Sequencing was performed by the NYU Genome Technology Core on Illumina HiSeq 4000 sequencer. Sequencing data was analyzed using the 4Cker software package described in (14) using the recommended parameters.…”

Section: C and Atac-seq Genome-wide Sequencing And Bioinformatic Anamentioning

confidence: 99%

“…Active REs are known to directly contact the promoters they regulate and have increased chromatin accessibility, we therefore, performed Circular Chromosomal Conformation Capture (4C) and ATAC-seq in H7 human embryonic stem cells (ESC) and adult retinal pigment epithelial (ARPE) cells that are proficient for p53 and have a stable diploid karyotype. We used a 1.1 kb fragment spanning the hTERT promoter as bait and captured sequences that are in close proximity by 4C (13), using 4Cker software to analyze Illumina sequencing reads (Figure S1B-C) (14). Our analysis identified loci that contact the hTERT promoter exclusively in telomerase positive cells (H7) or in telomerase negative cells (ARPE), as well as loci that contact the TERT promoter in both cases.…”

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confidence: 99%

Alternative splicing is a developmental switch for hTERT expression

Penev¹,

Bazley²,

Shen

et al. 2020

Preprint

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2 Penev et al.,High telomerase activity is restricted to the blastocyst stage of embryonic development when telomere length is reset, and is characteristic of embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs). However, the pathways involved in telomerase regulation as a function of pluripotency remain unknown. To explore hTERT transcriptional control, we compare genome-wide interactions (4C-seq) and chromatin accessibility (ATAC-seq) between human ESCs and epithelial cells and identify several putative hTERT cis-regulatory elements. CRISPR/Cas9-mediated deletion of candidate elements in ESCs reduces the levels of hTERT mRNA but does not abolish telomerase expression, thus implicating post-transcriptional processes in telomerase regulation. In agreement with this hypothesis, we find an hTERT splice variant lacking exon-2 and prone to degradation, to be enriched in differentiated cells but absent from ESCs. In addition, we show that forced retention of exon-2 prevents telomerase silencing during differentiation.Lastly, we highlight a role for the splicing co-factor SON in hTERT exon-2 inclusion and identify a SON mutation in a Dyskeratosis congenita patient with short telomeres and decreased telomerase activity. Altogether, our data uncover a novel alternative splice switch that is critical for telomerase activity during development.Telomerase counteracts telomere erosion and promotes cellular immortality. This specialized ribonucleoprotein complex is minimally composed of a reverse-transcriptase protein subunit (TERT) and an integral telomerase RNA component (TR). While the expression of telomerase RNA is ubiquitous (1, 2), TERT levels are tightly regulated (3). Human TERT (hTERT) is turned on during the blastocyst stage of embryonic development when telomere length is reestablished (4), and subsequently downregulated in most somatic cells (4,5). Similarly, hTERT becomes activated during the process of nuclear reprogramming (6) and is essential for telomere maintenance in pluripotent cells (7). Upregulation of telomerase occurs in approximately 90% of cancers, allowing tumor cells to escape crisis and proliferate indefinitely (5,8). Somatic mutations in the hTERT promoter have been reported in a subset of cancers and shown to increase telomerase activity by creating a binding site for ETS family transcription factors (9-11). To date, the underlying mechanism that activates hTERT during development and its subsequent silencing in somatic tissues remains unknown.The core hTERT promoter contains numerous binding sites for pluripotency and growthrelated transcription factors, including Myc, Klf4, and Sp1, but expression of these different factors 3 Penev et al., is not sufficient for hTERT accumulation and telomerase activation in somatic cells (12). We therefore sought to identify cis-regulatory elements (REs) that could account for the difference in hTERT mRNA levels between pluripotent and somatic cells ( Figure S1A). Active REs are known to directly contact the promoters they regulate and h...

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“…Visual inspection of the interactions of this RLTR4 copy with the rest of the genome, revealed that the regions of higher interaction belonged to the A compartment. The 4C-ker pipeline [60] was used to quantify this and determine which regions on chromosome 3 interact at high frequency with the MuLV integration site. As shown in Fig.…”

Section: Erv Interactions Are Constrained By the Compartments And Locmentioning

confidence: 99%

“…Single-end reads were mapped to a reduced genome of unique 25bp fragments adjacent to DpnII sites (mm10) using bowtie2 [79] as per the details described in 4C-ker [60]. Reads that map to the Encode blacklist regions were removed from downstream analysis [80].…”

Section: Tran-pcr Analysismentioning

confidence: 99%

The impact of endogenous retroviruses on nuclear organization and gene expression

Raviram

et al. 2018

Preprint

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Background: The organization of chromatin in the nucleus plays an essential role in gene regulation. When considering the mammalian genome it is important to take into account that about half of the DNA is comprised of transposable elements. Given their repetitive nature, reads associated with these elements are generally discarded or randomly distributed among elements of the same type in genome-wide analyses. Thus, it is challenging to identify the activities and properties of individual transposons. As a result, we only have a partial understanding of how transposons contribute to chromatin folding and how they impact gene regulation.

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4C-ker: A method to reproducibly identify genome-wide interactions captured by 4C-Seq experiments

Cited by 15 publications

References 41 publications

Epigenetic drift during long-term culture of cells in vitro

Epigenetic drift during long-term culture of cells in vitro

Alternative splicing is a developmental switch for hTERT expression

The impact of endogenous retroviruses on nuclear organization and gene expression

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